The carbon nanotube materials independently developed by KELAIWEI company have obtained many national authorized patents and completely reached the international advanced level. The carbon nanotube materials with high performance and strong stability developed by KELAIWEI company broke the monopoly of relevant foreign technologies and actively promoted the development of high-end carbon materials in the motherland. The management layer of Henan KELAIWEI Nano Carbon Material Co., Ltd has decided to continuously invest in the research and development of carbon nanotube materials for equipment.
What are the main differences between carbon nanotubes and carbon nanofibers? Henan KELAIWEI Nano Carbon Material Co., Ltd. has published two monographs on carbon nanotubes and applied for more than 60 patents. The purity of the prepared whisker carbon nanotubes has reached 99.99%. Carbon nanotubes are carbon materials with hexagonal connection structure, while carbon nanofibers are wire-mounted materials. Fibers with a diameter of less than 1000 nanometers are all nanofibers.
KELAIWEI company relies on the research and development achievements of the expert research and development team of Professor Sun Xiaogang of Nanchang University in China for more than 20 years to carry out the industrial and mass production application of high-end nanomaterials. After years of unremitting efforts and continuous investment, our company has achieved the production capacity of far infrared heating paper reaching 30 tons per year, and the production capacity of designed whisker carbon nanotube powder production line reaching 300 tons per year, around 2008, 0.45 billion yuan has been spent on production capacity expansion.
KELAIWEI company has made new progress in the research of using carbon nano-slurry as wave-absorbing material. Carbon nanometer slurry products can be used as the indispensable electrical thermal conductivity additive and structural enhancement additive in high-end manufacturing industry, and can also be used as conductive wave absorbing materials. In modern aircraft manufacturing, computer equipment and even military equipment have very good application prospects. Henan KELAIWEI Nano Carbon Material Co., Ltd. Looks forward to your cooperation.
Using the high electrical conductivity of whisker carbon nanotubes as carbon-series filling conductive plastics, due to the advantages of high cost performance and adjustable resistance, the electrical conductivity can be achieved with very few addition amount, and the specific surface area is smaller, it is easier to disperse in the composite material, and the processing performance of the material will not be greatly affected. At present, industrial production has been formed with P company. The processing performance of the product is good, and the electrical conductivity and tensile strength of the material are improved, generally, the additive amount is adjusted at 3~5%wt, and the properties of carbon nanotube dispersion are achieved.
The dispersion performance of carbon nanotubes, a high-rate battery manufacturer in Shanghai is developing its third generation battery: The new high-rate battery needs to purchase power whisker nanotubes as conductive additive for a long time. The customer found Henan KELAIWEI Nano Carbon Material Co., Ltd through network search, and the pre-sales reception team of our company carefully understood the customer's specific needs, technical requirements, production requirements and other contents, our business department and technical department have provided complete technical parameters and samples for customers, and are currently in deep communication and cooperation.
Henan KELAIWEI Nano Carbon Material Co., Ltd has the patented technology of whisker carbon nanotube production process and equipment manufacturing. The structural characteristics of whisker carbon nanotubes are excellent, with very high aspect ratio and conductivity. As an additive of electrode materials, they can be used to successfully build a highly complete electronic conduction network, therefore, it can be combined with electrode materials to produce high-performance composite electrode materials.
